Wireless Device Reporting

ABSTRACT

There is disclosed a method for operating a wireless device in a wireless communication network. The method comprises configuring, by the wireless device, a reporting time window for transmitting a report to the wireless communication network and determining, by the wireless device, whether data transmission from the wireless device to the wireless communication network is scheduled for a transmission time within the reporting time window, as well as transmitting the report together with the scheduled data transmission if it is determined that such is scheduled for a transmission time within the reporting time window. There are also disclosed corresponding methods and devices.

RELATED APPLICATIONS

This application is a continuation of U.S. application Ser. No.14/760,133 filed Jul. 9, 2015, which is a US National Phase Applicationof PCT/SE2014/051197 filed Oct. 10, 2014. The entire contents of each ofthe aforementioned applications are incorporated herein by reference.

TECHNICAL FIELD

The present disclosure pertains to reporting by wireless devices to awireless communication network.

BACKGROUND

For many applications, a wireless device like a user equipment transfersdata or reports, e.g. measurement reports, to the network. In manycases, the reports are time critical and/or periodical, e.g. for powercontrol. In many other cases, such reports may be less time critical oraperiodical, for example, if a wireless device participates in D2Dcommunication with another wireless device. In such a case, the wirelessdevice may measure and/or determine information regarding the D2Dcommunication, for example for billing purposes, which may betransferred to the network at a later point in time. It should be notedthat D2D communication may be performed even in cases the wirelessdevice is not covered by a cellular network or a cell, so that anyreport it is preparing would have to be sent when it re-establishescontact with the network.

SUMMARY

The present disclosure discusses approaches and devices allowing a moreflexible and resource-efficient operation of a wireless device intendedto report to the network.

There is described a method for operating a wireless device in awireless communication network. The method comprises configuring, by thewireless device, a reporting time window for transmitting a report tothe wireless communication network and determining, by the wirelessdevice, whether data transmission from the wireless device to thewireless communication network is scheduled for a transmission timewithin the reporting time window. The method also comprises transmittingthe report together with the scheduled data transmission if it isdetermined that such is scheduled for a transmission time within thereporting time window.

There is also disclosed a wireless device for a wireless communicationnetwork, the wireless device being adapted for, and/or comprising aconfiguring module for, configuring a reporting time window fortransmitting a report to the wireless communication network. Thewireless device further is adapted for, and/or comprises a determiningmodule for, determining whether a data transmission from the wirelessdevice to the wireless communication network is scheduled for atransmission time within the reporting time window. Moreover, thewireless device is adapted for, and/or comprises a transmitting modulefor, transmitting the report together with the scheduled datatransmission if it is determined, e.g. by the determining module, thatsuch is scheduled for a transmission time within the reporting timewindow.

There is also disclosed a method for operating a network node in awireless communication network. The method comprises configuring awireless device connected or connectable to the network node with areporting time window for transmitting a report.

Moreover, there is described a network node for a wireless communicationnetwork, the network node being adapted for, and/or comprising aconfiguring module for, configuring a wireless device connected orconnectable to the network node with a reporting time window fortransmitting a report.

A program product comprising code executable by control circuitry isdescribed, the code causing the control circuitry to perform and/orcontrol any one method disclosed herein.

There is also disclosed a carrier medium carrying a program productaccording as described herein and/or code executable by controlcircuitry, the code causing the control circuitry to perform and/orcontrol any one method disclosed herein.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 schematically shows setups for connecting a UE to a billingdomain.

FIG. 2 schematically shows reporting according to an approach describedherein.

FIG. 3 schematically shows an example of a wireless device.

FIG. 4 schematically shows an example of a network node or eNB.

FIG. 5 schematically shows a diagram of a method for operating awireless device.

FIG. 6 schematically shows a wireless device.

FIG. 7 schematically shows a diagram of a method for operating a networknode.

FIG. 8 schematically shows a network node.

DETAILED DESCRIPTION

Generally, the terms “device-to-device communication”, “D2Dcommunication”, “peer-to-peer communication”, “direct communication”and/or “ProSe communication” or “ProSe Direct communication” and/orrelated expressions or forms may be used interchangeably.

There is described a method for operating a wireless device in awireless communication network. The method comprises configuring, by thewireless device, a reporting time window for transmitting a report tothe wireless communication network and determining, by the wirelessdevice, whether data transmission from the wireless device to thewireless communication network is scheduled for a transmission timewithin the reporting time window. The method also comprises transmittingthe report together with the scheduled data transmission if it isdetermined that such is scheduled for a transmission time within thereporting time window. Accordingly, if there is a data transmission inthe reporting time window, the wireless device may use the initiation ofcommunication for the data transmission to also transfer the report, anddoes not have to perform a separate initiation of communication with thenetwork for the report. This saves time and communication resources, andalso reduces drain on the power supply of the wireless device. Themethod may comprise receiving, by the wireless device, of configurationinformation and/or data from the network. Configuring may be performedbased on the configuration information and/or data.

The method may comprise transmitting the report at or after and/ortriggered by reaching the end of the reporting time window if it isdetermined that no data transmission is scheduled for a transmissiontime within the reporting time window. This transmitting may compriseinitiating communication with the network, e.g. by a random accessprocedure, and/or switching to a RRC connected state.

Alternatively or additionally, the method may comprise configuring ameasurement time for measuring data on which the report is based on.

There is also disclosed a wireless device for a wireless communicationnetwork, the wireless device being adapted for, and/or comprising aconfiguring module for, configuring a reporting time window fortransmitting a report to the wireless communication network. Thewireless device further is adapted for, and/or comprises a determiningmodule for, determining whether a data transmission from the wirelessdevice to the wireless communication network is scheduled for atransmission time within the reporting time window. Moreover, thewireless device is adapted for, and/or comprises a transmitting modulefor, transmitting the report together with the scheduled datatransmission if it is determined, e.g. by the determining module, thatsuch is scheduled for a transmission time within the reporting timewindow. The wireless device generally may comprise radio circuitryand/or control circuitry, in particular at least one controller orprocessor and/or a memory arrangement, adapted for controlling theactions described in this disclosure as being performed by a wirelessdevice and/or implementing the modules of a wireless device described inthis disclosure. The wireless device may be adapted for, and/or comprisea receiving module for, receiving configuration information and/or datafrom the network. Configuring may be performed based on theconfiguration information and/or data.

The wireless device, and/or the transmitting module, may further beadapted for transmitting the report at or after and/or triggered byreaching the end of the reporting time window if it is determined thatno data transmission is scheduled for a transmission time within thereporting time window. This transmitting may comprise initiatingcommunication with the network, e.g. by a random access procedure,and/or switching to a RRC connected state.

Additionally or alternatively, the wireless device, and/or theconfiguring module or an optional measurement module, may be adapted forconfiguring a measurement time for measuring data on which the report isbased.

There is also disclosed a method for operating a network node in awireless communication network. The method comprises configuring, by thenetwork node, a wireless device connected or connectable to the networknode with a reporting time window for transmitting a report and/or witha measurement time for measuring data on which the report is based. Themethod may comprise determining, by the network node, the reporting timewindow and/or the measurement time.

Moreover, there is described a network node for a wireless communicationnetwork, the network node being adapted for, and/or comprising aconfiguring module for, configuring a wireless device connected orconnectable to the network node with a reporting time window fortransmitting a report and/or with a measurement time for measuring dataon which the report is based. The network node may determine, and/or beadapted for and/or comprise a determining module for determining, thereporting time window and/or a measurement time.

A program product comprising code executable by control circuitry isdescribed, the code causing the control circuitry to perform and/orcontrol any one method disclosed herein.

There is also disclosed a carrier medium carrying a program productaccording as described herein and/or code executable by controlcircuitry, the code causing the control circuitry to perform and/orcontrol any one method disclosed herein.

A measurement time may define a measurement interval and/or period (e.g.an interval of repetition of measurements) and/or one or moremeasurement time points at which at least one measurement has to beperformed by the wireless device. The result/s of a measurement may bestored as and/or be basis for usage information and/or a report. Themeasurement time may be independent of the reporting time window. Inparticular, the wireless device and/or measurement module may be adaptedfor, and/or perform, measuring (according to the measurement time)independently and/or outside of the reporting time interval. Thewireless device and/or measurement module may be adapted to performmeasurements based on the configured measurement time.

There may generally be considered a wireless device adapted for carryingout any of the methods for operating a wireless device described herein.A network node adapted for carrying out any of the methods for operatinga network node described herein may be envisaged.

A wireless device may be a user equipment, in particular a userequipment according to LTE. The wireless device may be adapted for D2Doperation and/or communication. It may be considered that a wirelessdevice performs, and/or is adapted for and/or comprises a measurementmodule for, measuring parameters related to D2D operation to provideusage information, which may be comprises in and/or be basis for areport. The report in particular may pertain to and/or comprise billinginformation, based on which the network or an operator may charge forthe D2D operation. A wireless device may be configured, e.g. by thenetwork or a network node, to perform measurements pertaining to D2Doperation and/or to provide usage information, in particular during atime in which it is not covered by the network. Generally, the wirelessdevice may comprise a memory and/or be adapted for storing in a memory,data and/or usage information, in particular such as pertaining to thereport. It may be considered that the wireless device is configured fornot transmitting an empty report, e.g. if the memory is empty and/or nomeasurement data or usage information for the report isavailable/stored.

A network node may be implemented as an eNodeB, in particular accordingto LTE. The network node may be adapted for, and/or comprise a receivingmodule for, receiving a report from a wireless device, and/or to relaythe report to higher layers of the network and/or an operator billingservice.

Generally, a carrier medium may be accessible and/or readable and/orreceivable by control circuitry. Storing data and/or a program productand/or code may be seen as part of carrying data and/or a programproduct and/or code. A carrier medium generally may comprise aguiding/transporting medium and/or a storage medium. Aguiding/transporting medium may be adapted to carry and/or carry and/orstore signals, in particular electromagnetic signals and/or electricalsignals and/or magnetic signals and/or optical signals. A carriermedium, in particular a guiding/transporting medium, may be adapted toguide such signals to carry them. A carrier medium, in particular aguiding/transporting medium, may comprise the electromagnetic field,e.g. radio waves or microwaves, and/or optically transmissive material,e.g. glass fiber, and/or cable. A storage medium may comprise at leastone of a memory, which may be volatile or non-volatile, a buffer, acache, an optical disc, magnetic memory, flash memory, etc.

In the following UE or user equipment may be used as an example for orinterchangeably with wireless device. eNode or base station may be usedas an example for or interchangeably with network node.

For a wireless device, device-to-device communication using a frequencyspectrum licensed for cellular communication may be implemented. 3GPP isspecifying D2D (equivalently called as ProSe) as part of LTE Rel-12,where licensed spectrum owned by Operators may be shared by D2Dconnections and cellular connections. Specifically, in 3GPP LTEnetworks, such D2D communication can be used in commercial applications,such as cellular network offloading, proximity based social networking,or in public safety situations in which first responders need tocommunicate with each other and with people in the disaster area.

New charging paradigms may be set up by operators in order to monetizethe use of their spectrum for D2D services.

The following principles may be applied in the context of D2Doperation/ProSe communication, in particular to a ProSe one-to-manyDirect Communication charging architecture (see FIG. 1, which showsdifferent ways of connecting a wireless device (UE) to a billing domainin a) to e)):

In the ProSe Direct Communication charging architecture, the AccountingMetrics Collection (AMC) functional block of the Charging TriggerFunction (CTF) is located in the UE, and the Accounting Data Forwarding(ADF) functional block of the CTF is in ProSe Function.

The ProSe Direct Communication usage information is stored securely inthe UE and is uploaded to a location configured by the ProSe Functionsecurely over PC3 (a standard interface between a wireless device/UE andthe ProSe Function of a network) using, e.g., the mechanism defined inTS 33.303.

The ProSe Function and/or the network or network node may be adapted toconfigure the wireless device in particular regarding measurement andreporting pertaining to the D2D operation and/or to control the UEuploading behaviour or reporting using service authorization andprovisioning mechanism, e.g. as defined in TS 23.303. Possibleconfiguration parameters are defined in TS 24.333.

When the UE is in coverage, it may access and/or communicate with and/ortransmit a report to the network or network node or the ProSe Function,e.g. in HPLMN as defined in TS 23.303.

When the UE is out of coverage, it may use pre-stored configuration,e.g. from ME (a memory) or UICC (Universal Integrated Circuit Card), orconfiguration received (e.g. from the network or network node) while incoverage, for the usage logging and uploading control and/or storingusage information or data and/or transmitting a report.

In the roaming case, inter-PLMN charging may be supported.

In FIG. 1, Rf refers to an offline charging reference point between a 3G(wireless) network element and the CDF; Ga to a reference point for CDR(Charging Data Record) transfer between a CDF and the CGF (ChargingGateway Function), and Bx to a reference point for CDR file transferbetween any (generic) 3G (wireless) domain, subsystem or service CGF anda BD (Billing Domain). The billing domain at the reference points andfunctions outside the UE may be part of a network and be implemented asnetwork nodes. The billing domain may be part of a core network used byan operator for charging use of network/licensed resources by a UE.

When the UE is out of E-UTRAN coverage, the UE may generate reports fromthe recorded usage information every reporting period and store thenon-empty reports in a non-volatile memory, and send or transmit thereport/s once the UE returns to coverage.

In most cellular networks, a wireless device like a UE has to perform arandom access procedure to communicate with the network, e.g. for datatransmission or transmitting a report, in particular for cellularcommunication. It should be noted that a random access procedure orpaging generally includes transmission of data from the wireless deviceto the network. In LTE, UEs need to be in RRC CONNECTED mode in order tocommunicate with the eNB. The RRC connection is established by a randomaccess or paging procedure. While in RRC CONNECTED, the UE monitorschannels and signals more frequently than in IDLE mode and itaccordingly consumes more power.

Operators need to receive reports about D2D operation performed by thewireless device relatively often in order to accurately charge for theuse of resources; however, such reports may be less time critical thanother reports, e.g. reports directly related to channel quality orcontrol of communication. Considering that even IDLE UEs and/or such notin coverage may actively participate to D2D, the power consumptionassociated to periodic reporting to the network may result insignificantly shorter battery life as well as large overhead on thecellular connection.

It may be considered splitting the steps of monitoring/measuringconnection parameters relative to D2D charging and the step of reportingsuch measurements to the network. While monitoring may be performedperiodically and at specific points in time, the time for reporting maybe chosen by the UE within configurable time windows. A smart UEimplementation may combine the charging reports with other cellularcommunications occurring during the reporting time window.

The proposed approaches in particular allow optimization of the energyconsumed by the UE for the purpose of reporting charging measurements inthe context of D2D operation.

The description above focuses on charging, but the proposed solutionsmay be extended to any type of reporting from the UE to the network(NW), in particular less time critical reporting (e.g., enhancedreception reporting associated with broadcast service). Another exampleis reporting of logs, e.g. logs indicating connections and/orcommunication partners.

IDLE UEs need to occasionally connect to the eNB (i.e., perform apaging/random access and temporarily switch to RRC CONNECTED mode) evenwhen no user data needs to be transmitted. E.g., UEs need toperiodically provide radio measurements for mobility purpose or identifythemselves when they change the tracking area. D2D Charging reports arerecognized as user data at L1/2 in the LTE protocol stack. This impliesthat an IDLE UE would need to connect to the NW in order to transmit thecharging report.

One aspect suggests that reporting from the UE to the NW must bepossible within a time window. Generally, the reporting time window may,e.g., be predetermined or configured by the NW or a network node. E.g.,it may be configured that a new report may be provided every T seconds,within a (reporting) time window of W seconds. In a further example, atimer (which may be a timer on the wireless device or UE) may be resetevery time a wireless device or UE completes reporting, and the UE mustperform a new report before the timer expires; this approach correspondsto setting the end time of the time window to the time when the timerexpires and the beginning time to when the timer starts. Typically,reporting periods and contents are configured by the operator and/or theNW or a network node and can be in the order of several minutes for somebilling/charging applications.

The wireless device may be adapted to anticipate or delay transmissionof reports, in particular of charging reports, within the allowedreporting time window, e.g. in order to reduce the number of dedicatedrandom access procedures needed by lowering the number of processesneeded for the sole purpose of transmitting charging reports. E.g., ifan IDLE UE temporarily switches to RRC CONNECTED during the allowedreporting window for any purpose not related to charging reporting, theUE may autonomously decide to transmit the charging report while the UEis still in RRC CONNECTED mode.

FIG. 2 shows the data flows during reporting as suggested. A UE isrepresenting a wireless device, a eNB a base station or network node,which may be seen as part of a network and/or represent the network.Time runs from top to bottom as indicated by the arrow heads. DuringIDLE, the UE does not transmit data to the eNB, at least not user dataand/or reports. However, the UE may participate in D2D communication,e.g. with another wireless device. At a given measurement time(Measurement in the FIG. 2), which may be configured by the network, ameasurement is taken by the wireless device, e.g. regarding usageinformation. Instead of coupling a reporting time directly to themeasurement time and instantly reporting the measurement result, thewireless device determines whether further data transmission isscheduled during a reporting time window indicated by the punctured linein FIG. 2. As a data exchange is determined (which comprises datatransmission), the wireless device transmits the report together withdata of the data exchange. In this case, it appends the report to thedata exchange. Thus, only one random access procedure is needed fortransmitting both the report and the data of the data exchange. FIG. 2shows a second situation in which the measurement is performed during aconnected state, in which case the report may be transmitted directly.In cases in which no connected state (no data transmission) is scheduledduring the reporting time window, the report is transmitted at the endor shortly after the end of the reporting time window. In particular,transmitting the report may be triggered by reaching the end of thereporting time window without having determined a scheduled datatransmission and/or without the report having been sent.

FIG. 3 schematically shows a wireless device or user equipment 10, whichmay be a node of or for a device-to-device communication, in closerdetails. User equipment 10 comprises control circuitry 20, which maycomprise a controller connected to a memory. A receiving module and/ortransmission module and/or configuring and/or determining module may beimplemented in the control circuitry 20, in particular as module in thecontroller. The user equipment also comprises radio circuitry 22providing receiving and transmitting or transceiving functionality, theradio circuitry 22 connected or connectable to the control circuitry. Anantenna circuitry 24 of the user equipment 10 is connected orconnectable to the radio circuitry 22 to collect or send and/or amplifysignals. Radio circuitry 22 and the control circuitry 20 controlling itare configured for device-to-device communication, in particularutilizing E-UTRAN/LTE resources as described herein for D2Dcommunication.

FIG. 4 schematically show a base station 100, which in particular may bean eNodeB. Base station 100 comprises control circuitry 120, which maycomprise a controller connected to a memory. A configuring unit and/or adetermining module may be comprised or implemented in the controlcircuitry. The control circuitry is connected to radio circuitry 122 ofthe base station 100, which provides receiver and transmitter and/ortransceiver functionality. An antenna circuitry 124 may be connected orconnectable to radio circuitry 122 to provide good signal reception ortransmittance and/or amplification.

FIG. 5 shows a method for operating a wireless device. The method maycomprise an action S10, in which the wireless device configures areporting time window for transmitting a report to the wirelesscommunication network. The configuring may be based upon receivingcorresponding information from the network, e.g. via cellularcommunication. The reporting time window may be periodical, to be usedregularly at given times. In an action S12 the wireless devicedetermines whether data transmission from the wireless device to thewireless communication network is scheduled for a transmission timewithin the reporting time window. For that, it may check the scheduleror a scheduler memory or register and/or monitor the control and/orradio circuitry, in particular one or more transmitters. If there isdetermined a scheduled data transmission, in an action S14, the wirelessdevice transmits the report together with the data transmission, e.g. byappending the report to the scheduled transmission. If there is no datatransmission scheduled and/or detected, reaching the end of the timereporting window may trigger transmitting the report independently.

FIG. 6 shows a wireless device comprising a configuring module W10 forperforming S10 as described with reference to FIG. 5. The wirelessdevice further comprises a determining module W12 for performing S12 asdescribed with reference to FIG. 5. Moreover, the wireless devicecomprises a transmitting module W14 for performing S14 as described withreference to FIG. 5. Generally, the wireless device may be adapted toperform the method as described with reference to FIG. 5.

FIG. 7 shows a method for operating a network node. The method comprisesan action S20 of configuring a wireless device connected or connectableto the network node with a reporting time window for transmitting areport. The wireless device may be connected or connectable with to thenetwork for wireless communication, in particular cellularcommunication. The network node may determine the reporting time windowand/or a measurement time. It may be considered that configuring thewireless device comprises transmitting corresponding configuringinformation to the wireless device.

FIG. 8 shows a network node. The network node comprises a configuringmodule W20 for performing S20 as described with reference to FIG. 7.Generally, the network node may be adapted to perform the method asdescribed with reference to FIG. 7.

Alternatively or additionally, the following may be considered: In LTE,UEs need to be in RRC CONNECTED mode in order to communicate with theeNodeB. The RRC connection is established by a random access or pagingprocedure. While in RRC CONNECTED mode, the UE monitors channels andsignals more frequently than in IDLE mode and it accordingly consumesmore power.

Considering that even IDLE UEs may actively participate in ProSeDirection Communications Services, the power consumption associated withperiodic reporting to the network may result in significantly shorterbattery life as well as large overhead on the cellular connection.

Optimization of the energy consumed by the UE for the purpose ofreporting charging measurements may be useful. The charging measurementsmay be seen as usage information or be basis of and/or comprised in areport.

An IDLE UE may need to occasionally connect to the eNodeB (i.e., performa paging/random access) and temporarily switch to RRC CONNECTED modeeven when no user data needs to be transmitted. For example, a UE mayneed to periodically provide radio measurements for mobility purpose oridentify themselves when they change the tracking area.

ProSe Direct Communications Services usage information reports arerecognized as user data at layers ½ in the LTE protocol stack. Thisimplies that an IDLE UE must connect to the network (e.g. by moving toRRC connected and/or perform a random access procedure) in order totransmit the charging report and/or other usage information.

In one aspect, the proposed solution suggests splitting the steps ofmonitoring and measuring usage information parameters for ProSe DirectCommunications Service and the step of reporting the measurements to thenetwork. While monitoring may be performed periodically at specificpoints in time, the time for reporting can be chosen by the UE within aconfigurable time window. A smart UE implementation is able to combinethe charging reports with other cellular communications occurring duringthe reporting time window.

A part of the solution, which may be an independent part, involves theintroduction of a reporting time window configured by the operator orthe network, in particular a network node, such that a new report may beprovided at T seconds within a window of W seconds. The reporting timewindow may be a periodic window.

A second part of the solution, which may be an independent part, mayinvolve anticipating or delaying transmission of a report of usageinformation, in particular of one or more charging reports, within theallowed reporting window in order to reduce the number of dedicatedrandom access procedures needed for the sole purpose of transmittingusage information or charging reports. If an IDLE UE temporarilyswitches to RRC CONNECTED during the allowed reporting window for anypurpose not related to usage information reporting, the UE mayautonomously decide to transmit the usage information report while theUE is still in RRC CONNECTED mode. If the IDLE UE does not switch to RRCCONNECTED prior to the end of the reporting window, the UE connects tothe network and transmits the usage information report.

The usage information for ProSe Direct Communication may be collectedbased on the configuration defined in TS 24.333 [241]. The usageinformation may be collected and recorded associated with the IMSI.

There may be considered to adapt a wireless device or UE such that:

When the UE is in E-UTRAN coverage, if the usage information recordedfor the current measurement period is not empty, it shall report theusage information as configured when the one of the following criteriaare met:

-   -   a configured measurement period has been reached; the end of an        associated configured reporting window has not been reached; and        the UE temporarily switches to RRC CONNECTED mode; or    -   a configured measurement period has been reached and the end of        an associated configured reporting window has been reached.

It should be noted that switching to RRC CONNECTED mode comprisestransmitting data to the network.

When the UE is out of E-UTRAN coverage, the UE may generate reports fromthe recorded/measured/stored usage information every reporting ormeasuring period and store the non-empty reports in a non-volatilememory, and send the reports once the UE returns to coverage.

In the context of this disclosure, a report may comprise data, e.g. dataprovided and/or produced by and/or on a wireless device. The report inparticular may comprise usage data or usage information and/or userdata, in particular regarding ProSe Direct/D2D communication in whichthe wireless device may and/or may have participated. Usage informationmay comprise measurement data taken by the wireless device, inparticular in the context of D2D operation, e.g. connection data and/orcommunication data for D2D communication. In particular, in the contextof LTE or similar, usage information may comprise any one or anycombination of a UE or wireless device identity, e.g. IMSI, a list ofserving PLMN IDs when the ProSe Direct Communication is under E-UTRANcoverage, list of the locations of the UE/wireless device, e.g. ECGIs,and the corresponding timestamps, radio/radio circuitry parameters orconfigurations used for the ProSe Direct Communication, e.g. as definedin TS 24.333 [241], a list of timestamps of when the UE/wireless devicegoes in/out of E-UTRAN coverage, for every ProSe Direct CommunicationGroup (identified by ProSe L2 Group ID) group parameters used for theProSe Direct Communication, as defined in TS 24.333 [241], e.g. ProSe L2Group ID, IP Multicast Address, Source IP address, etc, and/or timestampof the first one-to-many communication transmission/reception;identities of the transmitters in the one-to-many communication session,e.g. Source L2 ID and IP address, amount of data transmitted by UE orwireless device, amount of data transmitted by UE or wireless devicewhen in E-UTRAN coverage, amount of data transmitted by UE or wirelessdevice when out of E-UTRAN coverage, amount of data received by UE,amount of data received by UE when in E-UTRAN coverage, amount of datareceived by UE when out of E-UTRAN coverage and/or application specificdata, e.g. application specific session floor control information,application layer User ID of group members in the communication.

Configuring a, or by a, wireless device may comprise setting one or moreparameters and/or registers of the wireless device and/or tune and/orset one or more components or subsystems and/or circuitry, e.g. acontrol circuitry and/or radio circuitry, in particular to bring thewireless device into a desired operation mode, e.g. for transmittingand/or receiving data according to allocated resources and/or asscheduled by a network node and/or to be configured for communicationvia or with one or more cells of a cellular network and/or one or morethan one ProSe enabled devices. A wireless device may be adapted forconfiguring itself, e.g. based on configuration and/or allocation data,which it may receive from a network or network node.

Configuring a time or period or time window, in particular a reportingtime window, may comprise defining and/or determining and/or settingparameters or control circuitry of the wireless device and/or thewireless device such that the time or period or window or reporting timewindow is set and/or the wireless device transmits according to thecorresponding conditions described herein. A wireless device may beconfigured for measurement operation and/or for performing specificmeasurements, e.g. by setting/defining specific measurement periodsand/or intervals, and/or which parameters to measure and/or report. Awireless device may be configured for transmitting a report, by e.g.setting and/defining which data or parameter/s to transmit and/or whenand/or how often to transmit and/or on which channel and/or carrier totransmit. Configuring a wireless device by a network and/or network nodemay comprise transmitting information, e.g. instructions and/orparameters, for configuration/configuring to the wireless device fromthe network and/or the network node. The wireless device and/or aconfiguring module of the wireless device may be adapted for, and/orperform, receiving the information and/or configuring based upon theinformation.

A wireless device may generally be a device adapted for cellularcommunication, e.g. within a cellular network and/or with a networknode, in particular according to a mobile telecommunication standard,for example according to LTE. A wireless device may comprise and/or bereferred to as user equipment and/or mobile terminal or simply terminal.It may be considered that a wireless device is ProSe-enabled and/or maybe implemented as or comprise a D2D enabled device.

Communicating with and/or transmitting data to a network may generallycomprise communicating with and/or transmitting data to a network node,e.g. an eNodeB, which may relay data to upper layers of the network,e.g. a ProSe function and/or a billing domain, as e.g. shown in FIG. 1.

A time window, in particular a reporting time window, may define a timeinterval and/or a size of a time interval. A time window may have abeginning or beginning time and an end or end time, which may define thebeginning and the end of the window or interval, respectively. A timewindow may be parametrised e.g. by the end time and the beginning time,or in another example by defining a midpoint or reference point (intime) of the interval and a tolerance or difference in both directionsor one tolerance or difference for each direction from the midpoint. Thetime window, in particular a reporting time window, may be periodic,e.g. configured to be repeated such that the size of the time intervalis the same, but the point in time it is arranged around is changedand/or is periodic, to be repeated at regular time periods.

Determining whether data transmission is scheduled for a transmissiontime may comprise reading from a memory and/or register and/or schedulerand/or scheduling memory and/or checking a transmission schedule and/orsettings of a transmitter. The determining may be performed before thereporting time window is reached, e.g. by checking a schedule, e.g.reading it from memory, and/or during the reporting time window, e.g. bychecking the schedule and/or monitoring transmissions and/or radio orcontrol circuitry. Determining may be performed at one or more points intime, in particular before and/or at the beginning of the reporting timewindow. It may be considered alternatively or additionally thatdetermining is performed continuously and/or with a defined repetitionperiod during a time interval, which may at least partly include thereporting time window. The wireless device may be adapted fordetermining as discussed herein. A data transmission may be consideredto be scheduled for a transmission time if it is scheduled and/orplanned to be transmitted at the transmission time, and/or if it istransmitted at the transmission time. A transmission time may beconsidered to be within the reporting time window if is at or later thanthe beginning time of the reporting time window and if it is at orearlier than the end time of the reporting time window. Determiningwhether data transmission is scheduled for a transmission time maycomprise determining whether the wireless device switches or isscheduled to switch to a RRC connected status, which may requiretransmitting of data and/or performing a random access procedure.

Transmitting a report together with other data, e.g. a data transmittedat a transmission time within a reporting time window may compriseincluding and/or appending the report to the data and/or transmittingthe report after a connection initiation, e.g. a random accessprocedure, initiating the data transmission and/or connecting thewireless device with the network node for communication, in particularcellular communication, and/or after a random access procedure common tothe data transmission and the report and/or without performing anadditional random access procedure and/or after bringing the wirelessdevice into a RRC connected state for transmitting the data.

A data transmission scheduled for a transmission time may pertain todata to be transmitted, in particular to data different from the report.

Generally, transmitting the report at or after the end of the reportingtime window may be triggered and/or caused by the end of the reportingtime window being reached without the report having been sent. Thewireless device may be adapted for triggering transmitting the report ifthe end of the time reporting window has been reached.

Determining a reporting time window and/or measurement time, by anetwork node, may comprise receiving corresponding information orparameters from another network node or wireless device and/or readingsuch from a memory and/or calculating and/or estimating and/or settingthe reporting time window and/or measurement time, in particular ameasurement period, by the network node.

Transmission of data and/or a report to the network or a network nodemay generally comprise entering or changing to, by the wireless device,a communication mode, e.g., a RRC connected mode and/or by initiatingand/or performing a random access procedure. The wireless device may becovered by a cell and/or in communication with the network or networknode for transmission of data. The transmission may be cellulartransmission. It may be considered that the transmission is a D2Dtransmission. Generally, transmission of data or a report may beperformed if the wireless device is in coverage and/or may communicatewith the network; if the wireless device is out of coverage, the reportmay be stored by the wireless device. The wireless device may be adaptedfor, and/or comprise a storing module for, storing usage informationand/or report/s if the wireless device is out of network coverage, inparticular if the wireless device is adapted for and/or participating inD2D communication.

In the context of this description, wireless communication may becommunication, in particular transmission and/or reception of data, viaelectromagnetic waves and/or an air interface, in particular radiowaves, e.g. in a wireless communication network and/or utilizing a radioaccess technology (RAT). The communication may be between nodes of awireless communication network and/or in a wireless communicationnetwork. It may be envisioned that a node in or for communication,and/or in, of or for a wireless communication network is adapted for,and/or for communication utilizing, one or more RATs, in particularLTE/E-UTRA. A communication may generally involve transmitting and/orreceiving messages, in particular in the form of packet data. A messageor packet may comprise control and/or configuration data and/or payloaddata and/or represent and/or comprise a batch of physical layertransmissions. Control and/or configuration data may refer to datapertaining to the process of communication and/or nodes of thecommunication. It may, e.g., include address data referring to a node ofthe communication and/or data pertaining to the transmission mode and/orspectral configuration and/or frequency and/or coding and/or timingand/or bandwidth as data pertaining to the process of communication ortransmission, e.g. in a header. Each node involved in such communicationmay comprise radio circuitry and/or control circuitry and/or antennacircuitry, which may be arranged to utilize and/or implement one or morethan one radio access technologies. Radio circuitry of a node maygenerally be adapted for the transmission and/or reception of radiowaves, and in particular may comprise a corresponding transmitter and/orreceiver and/or transceiver, which may be connected or connectable toantenna circuitry and/or control circuitry. Control circuitry of a nodemay comprise a controller and/or memory arranged to be accessible forthe controller for read and/or write access. The controller may bearranged to control the communication and/or the radio circuitry and/orprovide additional services. Circuitry of a node, in particular controlcircuitry, e.g. a controller, may be programmed to provide thefunctionality described herein. A corresponding program code may bestored in an associated memory and/or storage medium and/or be hardwiredand/or provided as firmware and/or software and/or in hardware. Acontroller may generally comprise a processor and/or microprocessorand/or microcontroller and/or FPGA (Field-Programmable Gate Array)device and/or ASIC (Application Specific Integrated Circuit) device.More specifically, it may be considered that control circuitry comprisesand/or may be connected or connectable to memory, which may be adaptedto be accessible for reading and/or writing by the controller and/orcontrol circuitry. Radio access technology may generally comprise, e.g.,Bluetooth and/or Wifi and/or WIMAX and/or cdma2000 and/or GERAN and/orUTRAN and/or in particular E-Utran and/or LTE. A communication may inparticular comprise a physical layer (PHY) transmission and/orreception, onto which logical channels and/or logical transmissionand/or receptions may be imprinted or layered. A node of a wirelesscommunication network may be implemented as a Wireless device and/oruser equipment and/or base station and/or relay node and/or any devicegenerally adapted for device-to-device communication. A wirelesscommunication network may comprise at least one of a device configuredfor device-to-device communication, a wireless device, and/or a userequipment and/or base station and/or relay node, in particular at leastone user equipment, which may be arranged for device-to-devicecommunication with a second wireless device or node of the wirelesscommunication network, in particular with a second user equipment. Anode of or for a wireless communication network may generally be awireless device configured for wireless device-to-device communication,in particular using the frequency spectrum of a cellular and/or wirelesscommunications network, and/or frequency and/or time resources of such anetwork. Device-to-device communication may optionally include broadcastand/or multicast communication to a plurality of devices or nodes. Acellular network may comprise a network node, in particular a radionetwork node, which may be connected or connectable to a core network,e.g. a core network with an evolved network core, e.g. according to LTE.The connection between the network node and the core network/networkcore may be at least partly based on a cable/landline connection.Operation and/or communication and/or exchange of signals involving partof the core network, in particular layers above a base station or eNB,and/or via a predefined cell structure provided by a base station oreNB, may be considered to be of cellular nature or be called cellularoperation. Operation and/or communication and/or exchange of signalswithout involvement of layers above a base station and/or withoututilizing a predefined cell structure provided by a base station or eNB,may be considered to be D2D communication or operation, in particular,if it utilises the radio resources, in particular carriers and/orfrequencies, and/or equipment (e.g. circuitry like radio circuitryand/or antenna circuitry, in particular transmitter and/or receiverand/or transceiver) provided and/or used for cellular operation.

A wireless device or user equipment (UE) may generally be a deviceconfigured for wireless device-to-device communication (it may be awireless device) and/or a terminal for a wireless and/or cellularnetwork, in particular a mobile terminal, for example a mobile phone,smart phone, tablet, PDA, etc. A user equipment may be a node of or fora wireless communication network as described herein, in particular awireless device. It may be envisioned that a wireless device userequipment or wireless device is adapted for one or more RATs, inparticular LTE/E-UTRA. A user equipment or wireless device may generallybe proximity services (ProSe) enabled, which may mean it is D2D capableor enabled. It may be considered that a user equipment or wirelessdevice comprises radio circuitry and/control circuitry for wirelesscommunication. Radio circuitry may comprise for example a receiverdevice and/or transmitter device and/or transceiver device. Controlcircuitry may include a controller, which may comprise a microprocessorand/or microcontroller and/or FPGA (Field-Programmable Gate Array)device and/or ASIC (Application Specific Integrated Circuit) device. Itmay be considered that control circuitry comprises or may be connectedor connectable to memory, which may be adapted to be accessible forreading and/or writing by the controller and/or control circuitry. Anode or device of or for a wireless communication network, in particulara node or device for device-to-device communication, may generally be auser equipment or wireless device. It may be considered that a userequipment is configured to be a user equipment adapted for LTE/E-UTRAN.

A network node may be a base station, which may be any kind of basestation of a wireless and/or cellular network adapted to serve one ormore wireless device or user equipments. It may be considered that abase station is a node of a wireless communication network. A basestation may be adapted to provide and/or define one or more cells of thenetwork and/or to allocate or schedule frequency and/or time resourcesfor communication to one or more nodes of a network, in particular ULresources, for example for device-to-device communication, which may becommunication between devices different from the base station.Generally, any node adapted to provide such functionality may beconsidered a base station. It may be considered that a base station ormore generally a network node, in particular a radio network node,comprises radio circuitry and/or control circuitry for wirelesscommunication. It may be envisioned that a base station or network nodeis adapted for one or more RATs, in particular LTE/E-UTRA Radiocircuitry may comprise for example a receiver device and/or transmitterdevice and/or transceiver device. Control circuitry may include acontroller, which may comprise a microprocessor and/or microcontrollerand/or FPGA (Field-Programmable Gate Array) device and/or ASIC(Application Specific Integrated Circuit) device. It may be consideredthat control circuitry comprises or may be connected or connectable tomemory, which may be adapted to be accessible for reading and/or writingby the controller and/or control circuitry. A base station may bearranged to be a node of a wireless communication network, in particularconfigured for and/or to enable and/or to facilitate and/or toparticipate in device-to-device communication, e.g. as a device directlyinvolved or as an auxiliary and/or coordinating node. Generally, a basestation may be arranged to communicate with a core network and/or toprovide services and/or control to one or more user equipments and/or torelay and/or transport communications and/or data between one or moreuser equipments and a core network and/or another base station and/or beProximity Service enabled. An eNodeB (eNB) may be envisioned as anexample of a base station, in particular according to LTE. A basestation may generally be proximity service enabled and/or to providecorresponding services. It may be considered that a base station isconfigured as or connected or connectable to an Evolved Packet Core(EPC) and/or to provide and/or connect to corresponding functionality.The functionality and/or multiple different functions of a base stationmay be distributed over one or more different devices and/or physicallocations and/or nodes. A base station may be considered to be a node ofa wireless communication network. Generally, a base station may beconsidered to be configured to be a controlling node and/or to allocateresources in particular for device-to-device communication between twonodes of a wireless communication network, in particular two userequipments.

Device-to-device (D2D) communication or operation may generally refer tocommunication between nodes or wireless devices of or for a wirelesscommunication network or corresponding operation of one or more nodes,which may utilize the frequency spectrum and/or frequency and/or timeresources of the network, in particular according to LTE/E-UTRAN. Thecommunication may be wireless communication. A device in this contextmay be a node of the wireless communication network, in particular auser equipment or a base station. Device-to-device communication may inparticular be communication involving at least one user equipment, e.g.between two or more user equipments. Device-to-device communication maybe relayed and/or provided via a base station or coordinating node orrelay node, in particular without interaction with a core network and/orlayers of the network above a base station or coordinating node, or bedirect communication between two devices, e.g. user equipments, withoutinvolvement of a base station or controlling node and/or with a basestation or controlling node providing merely auxiliary services, e.g.configuration data or a transmission configuration or relatedinformation for a message intended for device-to-device communicationbetween user equipments. D2D communication may be communication betweentwo wireless devices in a region without cellular coverage and/orwithout interaction with a cellular or mobile network. In the lattercase, it may be considered that data and/or signals flowing between thenodes performing device-to-device communication are not transported viaa base station and/or controlling node. In contrast, during cellularcommunication, network layers above the eNB/base station/coordinationnode may generally be involved, in particular core layers which may beconnected to the eNB/base station/coordinating node via cable/land line.During device-to-device communication, a message may be provided and/ortransmitted and/or received. A device configured for and/or capable ofdevice-to-device communication, which may be called wireless device orD2D enabled node, may comprise control circuitry and/or radio circuitryconfigured to provide device-to-device communication, in particularconfigured to enable proximity services (ProSe-enabled), e.g., accordingto LTE/E-UTRA requirements. D2D operation or communication and cellularoperation or communication may be considered different operation typesor modes, which may generally performed using resources from the samepool of available resources, e.g. allocated resources and/or the samecarriers.

A storage medium may be adapted to store data and/or store instructionsexecutable by control circuitry and/or a computing device, theinstruction causing the control circuitry and/or computing device tocarry out and/or control any one of the methods described herein whenexecuted by the control circuitry and/or computing device. A storagemedium may generally be computer-readable, e.g. an optical disc and/ormagnetic memory and/or a volatile or non-volatile memory and/or flashmemory and/or RAM and/or ROM and/or EPROM and/or EEPROM and/or buffermemory and/or cache memory and/or a database.

Resources or communication resources may generally be frequency and/ortime resources. Allocated or scheduled resources may comprise and/orrefer to frequency-related information, in particular regarding one ormore carriers and/or bandwidth and/or subcarriers and/or time-relatedinformation, in particular regarding frames and/or slots and/orsubframes, and/or regarding resource blocks and/or time/frequencyhopping information. Allocated resources may in particular refer to ULresources, e.g. UL resources for a first wireless device to transmit toand/or for a second wireless device. Transmitting on allocated resourcesand/or utilizing allocated resources may comprise transmitting data onthe resources allocated, e.g. on the frequency and/or subcarrier and/orcarrier and/or timeslots or subframes indicated. It may generally beconsidered that allocated resources may be released and/or de-allocated.A network or a node of a network, e.g. an allocation node, may beadapted to determine and/or transmit corresponding allocation dataindicating release or de-allocation of resources to one or more wirelessdevices, in particular to a first wireless device. Accordingly, D2Dresource allocation may be performed by the network and/or by a node, inparticular a node within and/or within a cell of a cellular networkcovering the wireless devices participating or intending to participatein the D2D communication.

Allocation data may be considered to be data indicating and/or grantingresources allocated by the controlling or allocation node, in particulardata identifying or indicating which resources are reserved or allocatedfor D2D communication for a wireless device and/or which resources awireless device may use for D2D communication and/or data indicating aresource grant or release. A grant or resource grant may be consideredto be one example of allocation data. It may be considered that anallocation node is adapted to transmit allocation data directly to anode and/or indirectly, e.g. via a relay node and/or another node orbase station. Allocation data may comprise control data and/or be partof or form a message, in particular according to a pre-defined format,for example a DCI format, which may be defined in a standard, e.g. LTE.

In the context of this description, a wireless device generally may be adevice capable of D2D communication and/or operation, in particularusing frequencies and/or resources of a cellular and/or licensedcommunication system, e.g. a system according to a LTE standard, and maybe also referred to as D2D enabled or capable UE or node. A wirelessdevice may comprise any entity or equipment or device or node capable ofat least receiving and/or transmitting radio signals on a direct radiolink, i.e., between the entity and another D2D capable entity orwireless device. A wireless device or wireless device may for example becomprised in or comprise a cellular UE, PDA, a wireless device, laptop,mobile, sensor, relay, D2D relay, a small base station employing aUE-like interface, etc. Any device or entity capable to support and/orperform at least one D2D operation may be considered a wireless device;a wireless device may be adapted to support and/or perform at least oneD2D operation. A wireless device may generally be adapted for cellularoperation and/or communication in a wireless communication network. Itmay be considered that a wireless device generally comprises radiocircuitry and/or control circuitry for wireless communication, inparticular D2D operation or communication and cellular operation orcommunication. A wireless device may comprise a software/programarrangement arranged to be executable by a hardware device, e.g. controlcircuitry, and/or storable in a memory of e.g. a UE or terminal, whichmay provide D2D functionality and/or corresponding control functionalityto e.g. a UE or terminal.D2D operation may comprise any action oractivity related to D2D or D2D communication and may be usedinterchangeably with D2D communication. D2D operation may include, e.g.,transmitting or receiving a signal/channel type or data for D2D purposesand/or in D2D operation, transmitting or receiving data by means of D2Dcommunication, transmitting or receiving control or assistance data forD2D purpose, transmitting or receiving a request for control orassistance data for D2D, selecting a D2D operation mode,initiating/starting D2D operation, switching to D2D operation mode froma cellular operation mode, configuring receiver or transmitter with oneor more parameters for D2D.

D2D operation may be for a commercial purpose or to support publicsafety, using the data related to D2D. D2D operation may or may not bespecific to a certain D2D service. A D2D receive operation may be,and/or be comprised in, a D2D operation, which may, in one example, alsoinvolve other than D2D receive operations. A D2D operation may generallybe performed or performable by a wireless device or UE. A D2D receiveoperation may comprise receiving, by a wireless device, of D2D dataand/or signals. A D2D transmit operation may comprise, transmitting, bya wireless device, of D2D data and/or signals. A wireless deviceperforming at least one D2D operation may be considered to be in D2D orD2D mode or in D2D operation. D2D operation may comprise D2Dmeasurements.

A D2D measurement may be a measurement, e.g. performed by a wirelessdevice, performed for D2D purpose and/or on D2D signals/channels and/orregarding D2D operation and/or communication. D2D measurement maycomprise any one or any combination of: D2D RRM measurement, D2Dpositioning measurement, D2D synchronization measurement, measurement onD2D synchronization signals, measurement on D2D reference signals,measurement on D2D channel/s, signal-to-noise measurement, signalstrength measurement, signal quality measurement, in particularmeasurement of received signal strength, of received signal quality,RLM, synchronization, one-directional and/or two-directional timingmeasurement, RTT or Rx-Tx or similar measurement, measurement of numberof successful and/or unsuccessful channel decodings or receptions, datathroughput measurements, measurement of amount of data transmittedand/or received, billing-relevant measurement; these measurement may beperformed regarding D2D communication and/or D2D operation.

Cellular operation (in particular by a wireless device or UE) maycomprise any action or activity related to a cellular network (any oneor more RATs). Some examples of cellular operation may be a radio signaltransmission, a radio signal reception, performing a radio measurement,performing a mobility operation or RRM related to a cellular network.

D2D transmission or communication may be any transmission orcommunication by a wireless device or device and/or in a D2D operationor mode or communication. Some examples of D2D transmission may comprisephysical signals or physical channels, dedicated or common/shared, e.g.,reference signal, synchronization signal, discovery channel, controlchannel, data channel, broadcast channel, paging channel, schedulingassignment (SA) transmissions, etc. A D2D transmission on a direct radiolink may be intended for receiving by another wireless device. A D2Dtransmission may be a unicast, groupcast, or broadcast transmission. AD2D transmission may be on the uplink time-frequency resources of awireless communication system.

A network node may be a controlling node connected or connectable to awireless device for cellular and/or D2D communication. A controllingnode may be defined by its functionality of configuring the wirelessdevice, in particular in regards to measuring and/or reporting datapertaining to D2D operation. A controlling node may be a network nodethat is adapted to schedule, decide and/or select and/or allocate, atleast in part, time-frequency resources to be used for at least one of:cellular communication or transmissions and D2D communication ortransmissions. The controlling node may also provide schedulinginformation to another node, such as another wireless device, a clusterhead, a radio network node such as eNodeB, or a network node (e.g. acore network node), MME, positioning node, D2D server, RNC, SON, etc).The network node or controlling node may be or communicate with a radionetwork node. It may be envisioned that a controlling node may alsoperform coordination and/or control for one or more wireless device orUEs. The coordination and/or control may be performed in a centralizedor distributed manner. A controlling node may be referred to as anallocating node and/or a coordinating node.

A network device or node and/or a wireless device may be or comprise asoftware/program arrangement arranged to be executable by a hardwaredevice, e.g. control circuitry, and/or storable in a memory, which mayprovide D2D functionality and/or corresponding control functionality.

A cellular network or mobile or wireless communication network maycomprise e.g. an LTE network (FDD or TDD), UTRA network, CDMA network,WiMAX, GSM network, any network employing any one or more radio accesstechnologies (RATs) for cellular operation. The description herein isgiven for LTE, but it is not limited to the LTE RAT.

RAT (radio access technology) may generally include: e.g. LTE FDD, LTETDD, GSM, CDMA, WCDMA, WiFi, WLAN, WiMAX, etc.

A network node may generally be a radio network node (which may beadapted for wireless or radio communication, e.g. with a wireless deviceor a UE) or another network node. A network node generally may be acontrolling node. Some examples of a radio network node or controllingnode are a radio base station, in particular an eNodeB, a relay node, anaccess point, a cluster head, RNC, etc. The radio network node may becomprised in a mobile communication network and may support and/or beadapted for cellular operation or communication and/or D2D operation orcommunication.

A network node, in particular a radio network node, may comprise radiocircuitry and/or control circuitry, in particular for wirelesscommunication. Some examples of a network node, which is not a radionetwork node, may comprise: a core network node, MME, a node controllingat least in part mobility of a wireless device, SON node, O&M node,positioning node, a server, an application server, a D2D server (whichmay be capable of some but not all D2D-related features), a nodecomprising a ProSe function, a ProSe server, an external node, or a nodecomprised in another network. Any network node may comprise controlcircuitry and/or a memory.

A network node may be considered to be serving a wireless device or UE,if it provides a cell of a cellular network to the served node orwireless device or UE and/or is connected or connectable to the wirelessdevice or UE via and/or for transmission and/or reception and/or ULand/or DL data exchange or transmission and/or if the network node isadapted to provide the wireless device or UE with allocation and/orconfiguration data and/or a measurement performance characteristicand/or to configure the wireless device or UE.

A wireless device may generally be a node or device adapted to performD2D communication, in particular transmission and/or reception, and/orat least one type of D2D operations. In particular, a wireless devicemay be a terminal and/or user equipment and/or D2D enabled machineand/or sensor. The wireless device may be adapted to transmit and/orreceive D2D data based on allocation data, in particular on and/orutilizing resources indicate in the allocation data. D2D communicationand/or transmission by a wireless device may generally be in ULresources and/or corresponding carrier or frequency and/or modulation. Awireless device (such as a UE) may be adapted for and/or capable of CAor CA operation. In particular, it may be adapted to transmit and/orreceive one or more than one CCs and/or utilising, and/or participatingin, carrier aggregation. A wireless device may be adapted to configureitself and/or be configured according to configuration data, which mayinclude setting up and/or scheduling resources and/or equipment forreceiving and/or transmitting and/or sharing of resources and/or inparticular D2D operation and/or cellular operation based on theconfiguration data. Configuration data may be received, by the wirelessdevice, from another node or wireless device, in particular a networknode.

A network node may generally be adapted to provide and/or determineand/or transmit configuration data, in particular to a wireless device.Configuration data may be considered to be a form of allocation dataand/or may be provided in the form of a message and/or data packet/s.Configuring a wireless device or UE, e.g. configuring of the node by anetwork node, may include determining and/or transmitting configurationdata to the node to be configured, i.e. the wireless device or UE.Determining the configuration data and transmitting this data to awireless device or UE may be performed by different nodes, which may bearranged such that they may communicate and/or transport theconfiguration data between each other, in particular such that the nodedetermining or adapted to determine the configuration data may transmitthe configuration data to the node transmitting it or adapted totransmit it; the latter node may be adapted to receive the configurationdata and/or relay and/or provide a message bases on the configurationdata, e.g. by reformatting and/or amending and/or updating datareceived.

Cellular DL operation and/or communication of a wireless device or UEmay refer to receiving transmissions in DL, in particular in cellularoperation and/or from a network node/eNB/base station. Cellular ULoperation of a wireless device or UE may refer to UL transmissions, inparticular in cellular operation, e.g. transmitting to a network ornetwork node/eNB/base station.

Each or any one of the wireless devices or user equipments shown in thefigures may be adapted to perform the methods to be carried out by auser equipment or wireless device described herein. Alternatively oradditionally, each or any of the wireless devices or user equipmentsshown in the figures may comprise any one or any combination of thefeatures of a user equipment or wireless device described herein. Eachor any one of the network nodes or controlling nodes or eNB s or basestations shown in the figures may be adapted to perform the methods tobe carried out by network node or base station described herein.Alternatively or additionally, the each or any one of the controlling ornetwork nodes or eNBs or base stations shown in the figures may compriseany one or any one combination of the features of a network node or eNBor base station described herein.

Some abbreviations used are:

3GPP 3^(rd) Generation Partnership Project

Ack/Nack Acknowledgment/Non-Acknowledgement, also A/NAP Access point

BER/BLER Bit Error Rate, BLock Error Rate; BS Base Station CA CarrierAggregation CoMP Coordinated Multiple Point Transmission and ReceptionCQI Channel Quality Information CRS Cell-specific Reference Signal CSIChannel State Information

CSI-RS CSI reference signalD2D Device-to-device

DL Downlink EPDCCH Enhanced Physical DL Control CHannel

DL Downlink; generally referring to transmission of data to a node/intoa direction further away from network core (physically and/orlogically); in particular from a base station or eNodeB to a wirelessdevice or UE; often uses specified spectrum/bandwidth different from UL(e.g. LTE)eNB evolved NodeB; a form of base station, also called eNodeBE-UTRA/N Evolved UMTS Terrestrial Radio Access/Network, an example of aRAT f1, f2, f3, . . . , fn carriers/carrier frequencies; differentnumbers may indicate that the referenced carriers/frequencies aredifferentf1_UL, . . . , fn_UL Carrier for Uplink/in Uplink frequency or bandf1_DL, . . . , fn_DL Carrier for Downlink/in Downlink frequency or band

FDD Frequency Division Duplexing ID Identity IMSI International MobileSubscriber Identity L1 Layer 1 L2 Layer 2

LTE Long Term Evolution, a telecommunications or wireless or mobilecommunication standard

MAC Medium Access Control MBSFN Multiple Broadcast Single FrequencyNetwork MDT Minimisation of Drive Test MPC Measurement PerformanceCharacteristic NW Network OFDM Orthogonal Frequency DivisionMultiplexing O&M Operational and Maintenance OSS Operational SupportSystems PC Power Control PDCCH Physical DL Control CHannel PH PowerHeadroom PHR Power Headroom Report PLMN Public Land Mobile Network

ProSe Proximity Service/s, another name for D2D

PSS Primary Synchronization Signal PUSCH Physical Uplink Shared CHannelRA Random Access RACH Random Access CHannel RAT Radio Access TechnologyRE Resource Element RB Resource Block

RRH Remote radio head

RRM Radio Resource Management

RRU Remote radio unitRSRQ Reference signal received qualityRSRP Reference signal received powerRSSI Received signal strength indicatorRX reception/receiver, reception-related

SA Scheduling Assignment SINR/SNR Signal-to-Noise-and-InterferenceRatio; Signal-to-Noise Ratio SFN Single Frequency Network SON SelfOrganizing Network SSS Secondary Synchronization Signal TPC TransmitPower Control

TX transmission/transmitter, transmission-related

TDD Time Division Duplexing UE User Equipment

UICC Universal Integrated Circuit Card; card used for mobile/cellularcommunication in a UEUL Uplink; generally referring to transmission of data to a node/into adirection closer to a network core (physically and/or logically); inparticular from a wireless device or UE to a base station or eNodeB; inthe context of D2D, it may refer to the spectrum/bandwidth utilized fortransmitting in D2D, which may be the same used for UL communication toa eNB in cellular communication; in some D2D variants, transmission byall devices involved in D2D communication may in some variants generallybe in UL spectrum/bandwidth/carrier/frequency

These and other abbreviations may be used according to LTE standarddefinitions.

In this description, for purposes of explanation and not limitation,specific details are set forth (such as particular network functions,processes and signalling steps) in order to provide a thoroughunderstanding of the technique presented herein. It will be apparent toone skilled in the art that the present concepts and aspects may bepracticed in other embodiments and variants that depart from thesespecific details. For example, the concepts and variants are partiallydescribed in the context of Long Term Evolution (LTE) or LTE-Advanced(LTE-A) mobile or wireless communications technologies; however, thisdoes not rule out the use of the present concepts and aspects inconnection with additional or alternative mobile communicationtechnologies such as the Global System for Mobile Communications (GSM).While the following embodiments will partially be described with respectto certain Technical Specifications (TSs) of the Third GenerationPartnership Project (3GPP), it will be appreciated that the presentconcepts and aspects could also be realized in connection with differentPerformance Management (PM) specifications.

Moreover, those skilled in the art will appreciate that the services,functions and steps explained herein may be implemented using softwarefunctioning in conjunction with a programmed microprocessor, or using anApplication Specific Integrated Circuit (ASIC), a Digital SignalProcessor (DSP), a Field Programmable Gate Array (FPGA) or generalpurpose computer. It will also be appreciated that while the embodimentsdescribed herein are elucidated in the context of methods and devices,the concepts and aspects presented herein may also be embodied in aprogram product as well as in a system comprising control circuitry,e.g. a computer processor and a memory coupled to the processor, whereinthe memory is encoded with one or more programs or program products thatexecute the services, functions and steps disclosed herein.

It is believed that the advantages of the aspects and variants presentedherein will be fully understood from the foregoing description, and itwill be apparent that various changes may be made in the form,constructions and arrangement of the exemplary aspects thereof withoutdeparting from the scope of the concepts and aspects described herein orwithout sacrificing all of its advantageous effects. Because the aspectspresented herein can be varied in many ways, it will be recognized thatany scope of protection should be defined by the scope of the claimsthat follow without being limited by the description.

What is claimed is:
 1. A method of operating a wireless device in awireless communication network, the method comprising: configuring, bythe wireless device, a reporting time window for transmitting a reportto the wireless communication network; determining, by the wirelessdevice, whether data transmission from the wireless device to thewireless communication network is scheduled for a transmission timewithin the reporting time window; transmitting the report together withthe scheduled data transmission if it is determined that such isscheduled for a transmission time within the reporting time window. 2.The method of claim 1, the method comprising transmitting the report ator after the end of the reporting time window if it is determined thatno data transmission is scheduled for a transmission time within thereporting time window.
 3. The method of claim 1, the method comprisingconfiguring a measurement time for measuring data on which the report isbased on.
 4. A wireless device configured for operation in a wirelesscommunication network, and being further configured to configure areporting time window for transmitting a report to the wirelesscommunication network, determine whether a data transmission from thewireless device to the wireless communication network is scheduled for atransmission time within the reporting time window, and transmit thereport together with the scheduled data transmission if it is determinedthat such is scheduled for a transmission time within the reporting timewindow
 5. The wireless device of claim 4, further configured to transmitthe report at or after the end of the reporting time window if it isdetermined that no data transmission is scheduled for a transmissiontime within the reporting time window.
 6. The wireless device of claim4, further configured to configure a measurement time for measuring dataon which the report is based.
 7. A method of operating a network node ina wireless communication network, the method comprising configuring awireless device connected or connectable to the network node with areporting time window for transmitting a report.
 8. A network nodeconfigured for operation in a wireless communication network, thenetwork node being further configured to configure a wireless deviceconnected or connectable to the network node with a reporting timewindow for transmitting a report.
 9. A non-transitory computer readablemedium storing a computer program comprising program instructions that,when executed by processing circuitry of a wireless device configuredfor operation in a wireless communication network, cause the wirelessdevice to: configure a reporting time window for transmitting a reportto the wireless communication network; determine whether datatransmission from the wireless device to the wireless communicationnetwork is scheduled for a transmission time within the reporting timewindow; and transmit the report together with the scheduled datatransmission if it is determined that such is scheduled for atransmission time within the reporting time window.